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e01008413e
This fix is a little ugly, but it’s the only simple solution without a significant refactoring that restructures the relationship between GraphQL/Validate and GraphQL/Resolve. The ugliness should go away if we implement something like #2801.
207 lines
7.5 KiB
Haskell
207 lines
7.5 KiB
Haskell
module Hasura.GraphQL.Validate
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( validateGQ
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, showVars
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, RootSelSet(..)
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, SelSet
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, Field(..)
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, getTypedOp
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, QueryParts(..)
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, getQueryParts
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, ReusableVariableTypes(..)
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, ReusableVariableValues
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, validateVariablesForReuse
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, isQueryInAllowlist
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) where
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import Hasura.Prelude
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import Data.Has
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import qualified Data.HashMap.Strict as Map
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import qualified Data.HashSet as HS
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import qualified Data.Sequence as Seq
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import qualified Language.GraphQL.Draft.Syntax as G
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import Hasura.GraphQL.Schema
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import Hasura.GraphQL.Transport.HTTP.Protocol
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import Hasura.GraphQL.Validate.Context
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import Hasura.GraphQL.Validate.Field
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import Hasura.GraphQL.Validate.InputValue
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import Hasura.GraphQL.Validate.Types
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import Hasura.RQL.Types
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import Hasura.RQL.Types.QueryCollection
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data QueryParts
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= QueryParts
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{ qpOpDef :: !G.TypedOperationDefinition
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, qpOpRoot :: !ObjTyInfo
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, qpFragDefsL :: ![G.FragmentDefinition]
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, qpVarValsM :: !(Maybe VariableValues)
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} deriving (Show, Eq)
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getTypedOp
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:: (MonadError QErr m)
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=> Maybe OperationName
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-> [G.SelectionSet]
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-> [G.TypedOperationDefinition]
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-> m G.TypedOperationDefinition
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getTypedOp opNameM selSets opDefs =
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case (opNameM, selSets, opDefs) of
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(Just opName, [], _) -> do
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let n = _unOperationName opName
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opDefM = find (\opDef -> G._todName opDef == Just n) opDefs
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onNothing opDefM $ throwVE $
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"no such operation found in the document: " <> showName n
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(Just _, _, _) ->
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throwVE $ "operationName cannot be used when " <>
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"an anonymous operation exists in the document"
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(Nothing, [selSet], []) ->
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return $ G.TypedOperationDefinition
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G.OperationTypeQuery Nothing [] [] selSet
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(Nothing, [], [opDef]) ->
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return opDef
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(Nothing, _, _) ->
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throwVE $ "exactly one operation has to be present " <>
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"in the document when operationName is not specified"
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-- | For all the variables defined there will be a value in the final map
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-- If no default, not in variables and nullable, then null value
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validateVariables
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:: (MonadReader r m, Has TypeMap r, MonadError QErr m)
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=> [G.VariableDefinition] -> VariableValues -> m AnnVarVals
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validateVariables varDefsL inpVals = withPathK "variableValues" $ do
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varDefs <- onLeft (mkMapWith G._vdVariable varDefsL) $ \dups ->
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throwVE $ "the following variables are defined more than once: " <>
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showVars dups
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let unexpectedVars = filter (not . (`Map.member` varDefs)) $ Map.keys inpVals
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unless (null unexpectedVars) $
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throwVE $ "unexpected variables in variableValues: " <>
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showVars unexpectedVars
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traverse validateVariable varDefs
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where
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validateVariable (G.VariableDefinition var ty defM) = do
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let baseTy = getBaseTy ty
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baseTyInfo <- getTyInfoVE baseTy
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-- check that the variable is defined on input types
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when (isObjTy baseTyInfo) $ throwVE $
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"variables can only be defined on input types"
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<> "(enums, scalars, input objects), but "
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<> showNamedTy baseTy <> " is an object type"
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let defM' = bool (defM <|> Just G.VCNull) defM $ G.isNotNull ty
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annDefM <- withPathK "defaultValue" $
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mapM (validateInputValue constValueParser ty) defM'
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let inpValM = Map.lookup var inpVals
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annInpValM <- withPathK (G.unName $ G.unVariable var) $
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mapM (validateInputValue jsonParser ty) inpValM
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let varValM = annInpValM <|> annDefM
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onNothing varValM $ throwVE $
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"expecting a value for non-nullable variable: " <>
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showVars [var] <>
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" of type: " <> G.showGT ty <>
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" in variableValues"
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showVars :: (Functor f, Foldable f) => f G.Variable -> Text
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showVars = showNames . fmap G.unVariable
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-- | This is similar in spirit to 'validateVariables' but uses preexisting 'ReusableVariableTypes'
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-- information to parse Postgres values directly for use with a reusable query plan. (Ideally, it
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-- would be nice to be able to share more of the logic instead of duplicating it.)
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validateVariablesForReuse
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:: (MonadError QErr m)
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=> ReusableVariableTypes -> Maybe VariableValues -> m ReusableVariableValues
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validateVariablesForReuse (ReusableVariableTypes varTypes) varValsM =
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withPathK "variableValues" $ do
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let unexpectedVars = filter (not . (`Map.member` varTypes)) $ Map.keys varVals
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unless (null unexpectedVars) $
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throwVE $ "unexpected variables: " <> showVars unexpectedVars
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flip Map.traverseWithKey varTypes $ \varName varType ->
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withPathK (G.unName $ G.unVariable varName) $ do
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varVal <- onNothing (Map.lookup varName varVals) $
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throwVE "expected a value for non-nullable variable"
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-- TODO: we don't have the graphql type
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-- <> " of type: " <> T.pack (show varType)
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parsePGScalarValue varType varVal
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where
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varVals = fromMaybe Map.empty varValsM
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validateFrag
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:: (MonadError QErr m, MonadReader r m, Has TypeMap r)
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=> G.FragmentDefinition -> m FragDef
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validateFrag (G.FragmentDefinition n onTy dirs selSet) = do
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unless (null dirs) $ throwVE
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"unexpected directives at fragment definition"
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tyInfo <- getTyInfoVE onTy
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objTyInfo <- onNothing (getObjTyM tyInfo) $ throwVE
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"fragments can only be defined on object types"
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return $ FragDef n objTyInfo selSet
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data RootSelSet
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= RQuery !SelSet
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| RMutation !SelSet
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| RSubscription !Field
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deriving (Show, Eq)
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validateGQ
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:: (MonadError QErr m, MonadReader GCtx m, MonadReusability m) => QueryParts -> m RootSelSet
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validateGQ (QueryParts opDef opRoot fragDefsL varValsM) = do
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ctx <- ask
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-- annotate the variables of this operation
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annVarVals <- validateVariables (G._todVariableDefinitions opDef) $ fromMaybe Map.empty varValsM
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-- annotate the fragments
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fragDefs <- onLeft (mkMapWith G._fdName fragDefsL) $ \dups ->
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throwVE $ "the following fragments are defined more than once: " <>
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showNames dups
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annFragDefs <- mapM validateFrag fragDefs
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-- build a validation ctx
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let valCtx = ValidationCtx (_gTypes ctx) annVarVals annFragDefs
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selSet <- flip runReaderT valCtx $ denormSelSet [] opRoot $
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G._todSelectionSet opDef
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case G._todType opDef of
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G.OperationTypeQuery -> return $ RQuery selSet
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G.OperationTypeMutation -> return $ RMutation selSet
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G.OperationTypeSubscription ->
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case Seq.viewl selSet of
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Seq.EmptyL -> throw500 "empty selset for subscription"
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fld Seq.:< rst -> do
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unless (null rst) $
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throwVE "subscription must select only one top level field"
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return $ RSubscription fld
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isQueryInAllowlist :: GQLExecDoc -> HS.HashSet GQLQuery -> Bool
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isQueryInAllowlist q = HS.member gqlQuery
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where
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gqlQuery = GQLQuery $ G.ExecutableDocument $ stripTypenames $
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unGQLExecDoc q
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getQueryParts
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:: ( MonadError QErr m, MonadReader GCtx m)
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=> GQLReqParsed
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-> m QueryParts
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getQueryParts (GQLReq opNameM q varValsM) = do
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-- get the operation that needs to be evaluated
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opDef <- getTypedOp opNameM selSets opDefs
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ctx <- ask
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-- get the operation root
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opRoot <- case G._todType opDef of
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G.OperationTypeQuery -> return $ _gQueryRoot ctx
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G.OperationTypeMutation ->
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onNothing (_gMutRoot ctx) $ throwVE "no mutations exist"
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G.OperationTypeSubscription ->
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onNothing (_gSubRoot ctx) $ throwVE "no subscriptions exist"
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return $ QueryParts opDef opRoot fragDefsL varValsM
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where
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(selSets, opDefs, fragDefsL) = G.partitionExDefs $ unGQLExecDoc q
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